Final answer:
For the integral of (y)√(1-y²), a trigonometric substitution is the best approach. The substitution y = sin(θ) simplifies the integral using the Pythagorean identity. After solving the resulting integral, one must back-substitute to return to the variable y.
Step-by-step explanation:
To evaluate the integral of (y)√(1-y²), a trigonometric substitution is advised. This technique is useful when integrating functions with a square root involving (1-u²), (a²-u²), or similar expressions. In this case, substituting y with sin(θ) can simplify the integral due to the identity sin²(θ) + cos²(θ) = 1, which corresponds to the integral's square root term.
The step-by-step method to solve the integral would be:
- Make the substitution y = sin(θ), which implies dy = cos(θ)dθ.
- Substitute into the integral to get ∫ cos(θ)√(1-sin²(θ)) × cos(θ)dθ.
- Simplify using the Pythagorean identity 1-sin²(θ) = cos²(θ).
- Evaluate the resulting integral and then back-substitute to return to y variables.
The content-loaded trick substitution: integral of (y)√(1-y²)? is an example of when trigonometric substitution is not just a potential solution approach but the most appropriate one given the form of the integral.